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How Enzymes Work How Enzymes Work Cells within a person are in need of glucose in order to function properly How Enzymes Work Table sugar (sucrose) is ingested by a person. How Enzymes Work Within a person’s small intestine, the enzyme sucrase is available with open active sites. These sites will break sucrose down into glucose and fructose. Active site Sucrase How Enzymes Work The ingested sucrose eventually makes its way into the small intestine. Sucrose (substrate) Sucrose is the substrate of the enzyme sucrase. Sucrase (enzyme) How Enzymes Work When the two collide just right, the sucrose molecule will fill in the enzyme’s active site. Sucrose Sucrase How Enzymes Work Part of the enzyme then changes its shape. This weakens the bond between the two sugars that make up sucrose. Sucrose Sucrase How Enzymes Work Part of the enzyme then changes its shape. This weakens the bond between the two sugars that make up sucrose. Sucrase How Enzymes Work This is just one model showing how scientists view the sucrose & sucrase complex. Sucrase How Enzymes Work The weakened glycosidic bond is positioned such that it can readily react with a water molecule. Sucrase How Enzymes Work The weakened glycosidic bond is positioned such that it can readily react with a water molecule. Sucrase How Enzymes Work Eventually, a water molecule will collide with the weakened glycosidic bond. How Enzymes Work The hydrolytic reaction between the weakened glycosidic bond and water changes the enzyme’s shape. How Enzymes Work The hydrolytic reaction between the weakened glycosidic bond and water changes the enzyme’s shape. How Enzymes Work Glucose The substrate sucrose has now been split into two different products: glucose and fructose. Fructose How Enzymes Work The enzyme sucrase returns to its original shape and is ready for the next sucrose molecule. Glucose Fructose How Enzymes Work Glucose and fructose are used by the cell as sources of energy. Glucose Fructose How Enzymes Work The amount of energy needed for water to break sucrose into glucose and fructose is called activation energy. Energy Sucrose Glucose & Fructose Sucrose Reactants Products Reaction pathway How Enzymes Work Sucrose Activation energy H2 O Energy The amount of energy needed for water to break sucrose into glucose and fructose is called activation energy. Glucose & Fructose Glucose Reactants Fructose Products Reaction pathway How Enzymes Work Medium Energy Quantity At average cell temperatures, only a few water molecules have enough energy to break the glycosidic bond of sucrose. Low Energy High Energy Energy How Enzymes Work Sucrose Glucose & Fructose Activation energy Energy With the enzyme sucrase weakening sucrose’s glycosidic bond, the energy of activation is effectively lowered Sucrose Glucose Reactants Effects of Sucrase Fructose Products Reaction pathway How Enzymes Work Medium Energy Quantity This lower activation energy means that more molecules of water will have enough energy to break the bond. Low Energy High Energy Energy How Enzymes Work The result is that the presence of sucrase causes an increase in the amount of glucose and fructose produced. Product production Without Sucrase With Sucrase
